Art of making hydraulic cements, &amp;c.



Specification of Letters Batent.

Patented Dec. as, race.

Application ma April ,so, 1908. Serial No. scares.

. To all whom it may concem:

Be it known that I, WILLIAM H. HARDING, a citizen of the United States, and a resident of Philadelphia, in the county of Philadelphia and State of Pennsylvania, have invented certain new and useful Improvements in the Art of Making Hydraulic Ce- I ments, &o:, of'which the following is a specification.

My present invention relates more specifically to the production of Portland cement, though certain of its features and advantages may be utilized inconnection with 0t or processes involving the decomposition of minerals and the fritting or clinkering of the nonvolatile products of such decomposition.

The production of Portland cement necessarily involves the fritting or clinkering of an alkaline base, such as lime (CaO) with an acid of the class typified by silica (SiO and alumina (A1 0 Usually, the lime, silica, and alumina are all present in certain proportions, and the limits of variation in the percentage of each are now well reco nized in the art. As the constituent materia s are not found in nature in a free state, they are com? monly prepared for the clinkering process by the burning of raw materials containing compounds thereof in suitable proportions and ee from too great admixture of objectionable materials or elements which might interfere with the process or deteriorate the and carbon dioxid gas (00,) and the silica and alumina are commonly obtained from materials in which they are found combined with water of crystallization, which isdriven off by the heat.

Commonly the raw material is natural rock containing varying proportions of calcium carbonate and silica, commonly associated with alumina, magnesia, iron, etc. Usually, lune rock, chalk, or similar material, containing a greater lime content than is necessary for Portland cement is used in connec tion with so-called cement rock, clay, or other material containing an excess of silica, the proportions being such that the mixture when calcined and fritted or clinkered, will consist of a compound containing tri-calcium silicate and aluminate. According to the universal practice, these raw materials are finely ground and intimatelymixed, either wet or dry, prior to heating them to drive oii the carbon dioxid and water from the lime, silica, and alumina. The double process, first of decarbonizing the calcium carbonate and dehydrating the silica and alumina, and,

second, fritting or clinkering the resulting lime, silica, and alumina so that they may unite inthe proper relation to form what is commonly supposed to be a solid solution of calcium silicates, aluminates, etc., is now and always has been erformed by a single heat, both when the burning is done in an ilifiright kiln and when it is done in a rotary It has long been recognized that the upright kiln is not well adapted for clinkerin and that the rotary kiln is uneconomical, an it was proposed to completely dry and calcine the material in an n right kiln and then clinker it in a rotary ki n; but'prior to my invention this method has been found to be practicall impossible, and no one has ever succeede' in applying it commercially. Moreover, the proposition has been declared unsound, because the rotary kiln requires such great heat at the lower end for clinkering that any amount which can be absorbed in calcining further up the kiln is insi nificant as compared with the total unavoi able waste. The result has been that the single burning operation with continuous calcining and clinkering in a rotary kiln has gradually become recognized and generall accepted as the standard modern method of makin Portland cement, so that now practically all of the Portland cement made in this country is produced by this method; and the use of the u right kiln for Rosendale cement, has

been no mainly to the demand for a cheaper,

lower grade cement and tothe pro-existence of the upright kiln plants and the expense involved in substituting rotary kilns.

My resent invention consists of a method whet-cl? the raw material instead of being calcine and clinkered at one heat, is subjected to two distinct burning operations in ical, as well as productive of a operation in the rotary kiln would be improved if the dehydration and decarbonization of all of the materials could be made perfect before charging it into the rotary clinkering kiln, but according to my experience with my rocess, in which this is an easily obtainab e condition, it is very desirable that there be some material, even though it be an extremely small percentage, which remains to be dehydrated or decarbonized or dried, and thereby to absorb heat at or near the region where the intensity of the applied heat begins to a preach a temerature sunicient to clin er completely ehydrated and calcined material, to the end that the material shall not be too fully clinkered at a point too far up the kiln, as this would result in subjectin clinker to .clinkering temperature for too Iong a time. In fact, the clinkerin operation in the continuous feed rotary kiIn is most easily accomlished. where thereremains some uncompleted dehydrating or calcining reaction which may be prolonged so that 1t will take place to some extent at least, at or near the time or place where the clinkering process.

commences, so that the two processes succeed each other oreven overlap or intermingle in the sense that certain particles may be undergoing dehydration or decarbonization at-points not too remote from other articles which are sintering or fritting to ormthe clinker. One reason for this may be that the clinkering operation, wherein the alkaline lime at high tem erature unites with-the acid silica and ah mma is, theoretically at least, anexothermic or heat evolving operation and in any event, is one which does not involve appreciable absorption of heat, whereas the operation of driving off free water or water of crystallization or of driving off the carbon dioxid from the calcium carbonate, although occuring at lower temperatures, are destructive which do involve great absorption of heat. It seems probable that a certain amount of heat absorbin operation is beneficial, insomuch as the eat absorption must tend to temper the heat evolving operation of clinkering, and if this had no other effect, it would ten to localize the clinkering zone nearer the discharge end of the kiln, and thus to shorten the time between beginning of clinkering and-discharge of the material from the kiln. This ma tance,insom1ch as clinkering is a critical operation so far as concerns time and temperature. When performed in a rotary kiln,

processes be of considerable impor-,

it requires that the material be raised to a temperature commonly supposed to be between 2500 and 3000 degrees Fahrenheit, in order that the union of the materials may be sufliciently complete and yet the temperature must not be too high or too long continued, or the material will be what is technically known as overburned. 3

In another a plication of even date herewith, I have escribed the advantages inherent in having some carbon dioxid evolved in theclinkerin r kiln, particularly where all of the materials ave been previously burned and, therefore, substantially completely dried. In said application, I have made broad claims to the method of making Portland cement clinker from material previously sub'ected to heat, which consists in feeding sai material into a rotary kiln; generating in said kiln a temperature sufficient to effect the clinkering of the materials; and predetermining or adjusting the rate of feed, the heaviness of the feed, and the rapidity of rotation of the kiln with respect to the heat within the kiln and with respect to the work which must be done on the material'to bring it to the clinkering temperature, for the purpose and with the result of controlling the time and tempering the extent of the clinker reaction. In said application I have also made other claims in which the specific work which must be done on the material in the rotary kiln to bring it to the clinkering temperature consists in part of the chemical work of decarbonizing the calcium carbonate. This present application is related to said companion application and to the claims thereof insomuch as the process of this application has reference to the amount of heat absorbing work to be eiformed in the rotary 105 kiln upon material a ready partly or wholly calcined. M present process may include the use of 0t er materials, and work preferably includes drivin off of an appreciable amount of water, eitIier free water or water of or stallization, the latter operation being capa le of employment as supplemental to -or as a substitute for the calcium carbonate reaction claimed in the companion application. Hence, certain of the claims hereof 115 involve utilization of the heat absorbing o eration of driving off water which may e conjoined with various other factors, for

the purpose and with the result of controlling the time and tempering the extent of the 120 clinkering reaction... Certain of the claims of this application are limited to such process when ap lied to completely calcined materials whi e others are not limited.

With the above explanation, it will be un- 125 derstood that the method ofthis application preferably involves the presence 0 water in some form in the cement forming materlals conveyed to the rotary kiln. Insomuch as the heat required to drive ofi water is lower 180 as lime stone, chalk, or shells, and then to raise the percentage of silica, alumina, etc. required for Portland cement by adding clay. This ma be dried and pulverized so that practical onlythe"combmed water or water of crystallization remains to furnish the temering, heat absorbing action in the rotary liiln, or, if desired, the clay may be used wet, in which case the total amount of Water will be increased byreason ofthe free water in addition to the combined water of crystalli zation. Any other suitable material containing an excess of silica and alumina may be used in the raw state. If raw cement rock, low in calcium carbonate, be used instead of clay, the tempering, heat absorbing reaction of decarbonizing the calcium carbonate content will be added to the heat absorbing effect of such water as the rock ma contain. The use of this latter material w' l be found rather uneconomical, because of the extra ex e'nse involved in rinding the hard rock. n certain cases t e material may be prepared by calcining cement rock to a (lesiredde rec-and then bringing ufp the percentage of ime by the addition 0 .raw ime rock; chalk, or shells. In the case of chalk the expense for grinding would not be so great, For any given percentage of water, either with completely calcined material or with partly calcined material, the distribution or region of activity of heat absorbing action may be further controlled by adjusting the heaviness of the feed and the rate of feed. In general, it may be said that in all casesthe clinkerin by my method will be more'rapid than by t e oldmethod with unburned rock.

' In t eIpreferred practice of my method, wherein use previously calcined lime in connection with -clay, the work which the heat must (perform may be made as great as desired an may be approximately as great as where uncalcmed ca cium carbonate is rmployed. I This work need not be greater than that which is performed in the last twenty or thirty feet of a rotary kiln operating by the old process on raw uncalcined material, so that for the practice of my method, the length of the 'l'n need be only that neces sary to drive ofi the required amount of water and to do the required amount of chemical work, if any, plus the further length necessary for heating up the materials to the drying and dehydratin temperature. Hence, an old fashioned short is amply adequate for my purposes, although a kiln eighty to one hundred feet; or more in length may be employed, and is. even desirablein case the material employed for my ur oses requires a large amount of 'heat a or ing work, as where it consists of the wet mixture or slurry employed for a wet rocess, or where it contains an exceptiona ly large percentage of unburned or partially burned material.

Another feature of my invention consists in regulating the su ply of the material to the upper end of the n and the rate of feed therethrough, so that the feed shall be heavy;'

that is to say, so that the amount of material lying .on the upturning side of the kiln shall be equal to or greater than the amount of such material commonly found in the ordinary rotary kiln process, where uncalcined rock is used.

Another feature of my invention consists in burning the coal at the ordinary rate eniployed for raw uncalcined rock, or even at a considerably higher rate, and then utilizing the resulting heat by increasing the heaviness and the rate of feed to a point where the increased amount of material operated upon, compensates for the decreased work which a given volume requires. In this way the full jet will supply no more heat than is necessary for the amount of material operated upon. This requires that the rate of travel of the material down the kiln be proportioned to the heaviness of the feed, so that the out of clinker will be at least two and preferali three, or even four times as great as in the case of raw, uncalcined rock, though in each specific case the precise ratio will --depend somewhat upon the percentage of water or of unburned rock in my mixture, thelatter de pending, of course, 11 on how thoroughly and completely I burn t e material in the up right kiln.

There is another feature of my invention which robably tends to account for my success. to the earlier days when the advantages of complete calcina'tion in one burning and separate clinkering by another burning was first proposed/the jets used in the rotary kilns were either atomized oil jets or producer gas jets. The latter has always proved diflicult of use for clinkering operations, because of the low heat intensity of the flame. On the other hand, the oil jets as used in rotary kilns have always been proportioned and designed to produce a ve intense heat which would necessarily over urn ,the clinkerunless restrained in some way, as

by a dominant heat abscrbin reaction continuing far down the kiln. believe that this is one of the reasons why no one has ever succeeded in using this intensely hot flame for clinkering, exce t in connection with reviously uncalcine raw materials, w 'ch ut ly could be manipulated so as to distribute the heat absorbing decarbonization of the lime, to any extent.

One of the meritorious features of my in vention consists in the discovery that one of the varieties of fuel and one of the forms of jet burner now in common use is suitable for the practical performance of the clinkering part of my process. The fuel which I use 1s.very finely pulverized and carefully dried gas coal carrying approximately 30% to 38% volatile material. This fuel is used in connection with a low' pressure diffuse burner of the McAuley type, supplied with air by a rotary fan. jet of the Hurry and Seamans type, which is sup lied from an air compressor, because with t 1e low pressure type the flame ismore localized at the lower end of the kiln. Moreover, the fuel itself has a comparatively narrow range of temperature, which extends entirely through the range of temperature necessary for clinkering, and yet does not extend far above that range. Thus it is easier to limit and temper the clinkering of my precalcined material to prevent serious overburning. It will be noted that the specific fuel and burner used and the method of'its use contribute to localize the region of clinkering temperature close to the lower end of the kiln, thus operating in a manner tending to produce a general effect contributory to the above described effect of the water or carbon dioxid in the material in the upper portion of the kiln.

It will be seen that the percentages of water and C0,, the nature of the fuel, the character and location of the jet, the heaviness of the feed, and the rate of the feed, are all factors which'are governed and controlled with the view to preventing such excessive overburning of the clinker as would make my process impractical. Hence, the degree and extent to which the one ex edient must be utilized will depend upon t e extent and efiectiveness with which the others are utilized, and considerable variation and substitution of one for the other to produce the same result will be possible and desirable under var ing circumstances and conditions. It wil. be obvious that the present full disclosure of the various possible subsidiary or contributing factors will enable those skilled in the art to successfully utilize one or more of these fadtors to the exclusion of the others. Inattempting any such variations, considerable caution should be exercised, particularly in p the matter of completely calclmng all of the material and driving off all of the water, before subjecting it to the final heat in the rotary kiln, because the absence of heat ab sorbing work Wonderfully facilitates the operation in the rotary kiln, and at the same time the heat is necessarily very intense. Hence, unless great care is exercised in prep- I prefer this to the high velocity erly tempering and'controlling the action of the heat, as by insuring the presence of Water or some other adequate heat absorbing work in the rotary kiln, the clinker may be overburned. In fact, the great facility with which completely decarbonized material becomes overburned in the rotary kiln, is one of the causes which has heretofore made the double burning operation practically impossible of successful performance, and it is with a view to controlling and temipering or localizing the clinkering, instead 0 with a view to facilitating it, that I have devised my present recess wherein I make adequate use of the erein described tempering factors.

I will now describe an illustrative application of my process as practiced with certain specific raw materials: Chalk, shells, lime rock, or other suitable material containing a desired percentage, of calcium carbonate may be more or less completely calcined in any kiln suitable for the purose. Preferably, this material will be ime rock and the calcining will follow any of the known or desired methods of making lime, except that it is unnecessary for the calcination to be com lete, and it is more economical in fuel an otherwise desirable that. it be more or less incomplete. For my. pur ose, 1 find it cheaper to charge and draw t e kiln more heavily or more fre quently, so that the amount of fuel burned for a given amount of rock will be approximately one-half to three-fourths that used where complete calcination is necessary, as in the manufacture of lime. This product may be ground with very small expense for power and the grinding may be as fine as desired. The cement forming material of the desired composition is made by mixing with the calcined material a desired percent-- age of finely ground clay or shale, which preferably contains the water of hydration or combined water. The finely powdered mixture is fed into a rotary cement kiln, which may be 60 feet long and about 7 feet in external diameter, having preferably a small incline or pitch, say, i to inch to the foot, and rotating at a relatively high speed of one revolution in 30 to 45 seconds. The

feeding of the material at the upper end is preferably such as to maintain a heavy layer of the material on the upturning side of the kiln. The purpose of this is to expose only 'a small proportion of the material at a time, the main body of the material being shielded by the outermost layers. The ur ose of the ra id rotation is to rapid y s ift the materia so that each pordrive oil the water, and'the continued appli cation of the heat and the thorou h agi tation results in completing the ca cining of any uncalcined constituent. The low ressure burner giving the diduse flame, is preferably pro ected into impingement with the material on the upturning side of the kiln. The burner is refer-ably of such capacity and so supplied with pulverized coal that the coal consumption er hour is equal to or reater than the coa consumption requiredfor that kiln when operating on raw uncalcined material. The rate of the feed of the material to the kiln is preferably such that the clinker output is three to five times that of the-same kiln when operated in the ordinary Way on raw uncalcined material. By properly roportioning the length of the kiln and t e heaviness and rate of the feed to the amount of the fuel burned, the work to be done upon the material by the heat may always be made to hear such relation to the time of exposure and to the distribution and intensity of the heat that the material will not reach the clinkering temperature until it has approached within a predetermined desired distance from the discharge outlet of the kiln, and thus the time of e. osur-e to the chnleering temperature add the duration and intensity 'of the clinlreri reaction, may be accurately predetermine so as to secure the best results.

As I have above indicated, the Work to be done includes the heating up of the material followedby the heat absorbing operation of driving old the Water and any remaining carbon dioxid from such portion of the rocli as has not been previously calcined. Though the dehydration involves great heat absorption and in certain cases is one of the most readily applicable enpedi= cuts for tempering the process and pre ent= ing remature clinkering, it is not essential in a cases and it will be evident, from the spirit of my disclosure, that ii the feed is made sufficiently has and the agitation sufficiently rapid, and if these are properlypro ortioned to the rate of feed, the lengt of t e path of the feed, and the intensity of the heat, so that under the conditions all of the heat which can be absorbed by the material While traveling the required distance Will be only suficlent to do the Work of heating up the material to the clinkering temperature by the time it arrives Within a suitable distance from the discharge end or outletin such case, the duration of the clinkering reactions may be redetermined and controlled even thh t e work done by the heat consists as. in raising tern peraturc oi the materials.

Where decomposition oi calcium carbonate is included with dehydration as a part of the preliminary Work done by the heat in the rotam min, the reactions the l at the lower end and the various attendant visible phenomena are more nearly analogous to those to which the ordinary cement burner has become accustomed his prior experiences with rotary kilns, and hence he can more easily learn to gage the situation and to properly vary the conditions in the practice of my new recess. Another advantage is that the driving ed oi the last remnants of the CO, from the calcium carbonate requires a dis roportionate amount of fuel when accom ished in the upright kiln, Whereas the con itions in the rotary kiln are the best possible for thoroughly and cheaply completing this work: and the attendant heat absorption is there an advantage for the various reasons explained. @ther kinds of preliminary Work requiring absorption of heat may be used in combination with or as a substitute for the operation of driving ofl water. Among the kinds of Work suitable for this purpose, other than those mentioned above, are the driving ofi of potash, soda, or sulfur compounds. Reactions of the latter type are especially effective insomuch as most of them occur at or near the clinlrering oint and involve chemical absorption 0 relatively large amounts of heat :uer unit Weight of the material driven off. ties may be very small, the tempering edect may be very noticeable.

in certain cases lime rock, cement roclr, or similar raw materials may be completely calcined and dehydrated, and then ground and mixed in the proper pro ortion required for the Portland cement clin er. This material may then be modified, or as it were, loaded by the addition of acertain amount of previously repared mixture of material calculated to urnish the re uired amount of heat absorb ing Work in driving oil Water and carbon di= QXlCl in the-rotary kiln. This furnishes a convenient method of standardizing the op eration of the plant, since a standard mix-.- ture may be repared which, when added to the complete y calcined mixture, will always give a standard, definite mixture to be acted upon by the heat in the rotary kiln. While this method of preparing the material is convenient and certain, it necessarily involves the, expense of complete calcination of ractically all of the material in the upright Hence, in actual practice, I prefer to underburn with such uniformity of conditions as are practically obtainable in the upright kiln, so as to get an approximately definite average percentage of underburned material in the product, and then to correct unayoid able variation by adding a variable amount of unburned raw mixture. I

in cases Where it desirable to standardize the amount of heat absorbing yrorls tub-e done in the rotary ln'ln, the raw series, though the euantt mixture may be proportioned so as to com its precise "or'o'portion of time, silicmsnd alumina cor-ltent required for the Portiend cement, so. that "variable emounts of such tow mixture rosy be added Without vezying the composition of the resulting clinker.

will be understood that Where standardisation the unburned content of the mix ture is not attempted or is imperfect, the

sod heaviness of feed the adjustment of items end toe amount of seal bowed, alloy be varied so as to compeesste for a core Sidfif bis siege of variation in rnixtm'e.

(jet o features of the olinkering process es her CEESCEibSd and seset forth in certsin of the ctslms, depend meieiy onthe composition of the cement forming materiel, and so eoneems such claims it is relatively unimpor "whet kind of kiln or other ere tus so "as celeium carbonate content or for pertisfiy or Wholly dehydrating the hydrated content of the materiel to be efinkered. titoreo'zrez", so fer es eoncerns the breeder sub- :msttet, sit the steps of my process are modest of the speclfic the apps.-

..n which the operation is performed; except therein otherwise definitely 1 a chime for the proeess ere not speeifio apparatus deseribed in specification. In certain of thecieims rein there is more or toes itefimte specifi. cation. of sretus, it will be understood mus isreferre-d for pm. easiiy defining the neture of the '1 eosstituting the process, tether -h ViGW to mciudieg any s -eeific e testers of my invention.

In certain of cisims I heve teterred to jo'redeterm n ng or sdjustiiw eertein teeters the operation of the at sting kiln, es, to of supply of materiel rotstioe of the kiln, with s1 sled length of v 1 Within kilo sod with "reto the "avert. which be done upon tie to sting it to the ctttokeziug In these the toegusge 1t be taken to izmgty that ere led. or adjusted tectoss end that the p e soy see redt.- tics. of the venieet end insomoeh operly proportioned plant ready for operation. Whete it is that the consttue or the the teeters of pitch, di

of the kite the dis- ,Ltcnsity the test within enmity eom enieet de toe moieties for psrtislly or Wholly seeming,

teriei heving sui sdj us tmeetwithseteceece to the other The w t which must done on the to bring it to the flickering temperature ls of course, in cases copsole of variation by veristion in the cherooter of the constituents of the msteriel. Hence, it wilt '7 be understood thet Where certain of these factors ere specified in the claims es verisbie or adjustable with tespeet to certcin ot factors, such claims etc to be considered covering eproeess wherein or st 0 said teeters ore vex-ted, adjusted, or presto mined for the desorioee purposes, with erence to eny one or ott 02? the othezf I claim:

1. In the ezrt of ms? clinker, the process which e01 cining time rock to make time, time, end mixing it with cisy is sui 1 proportions to eonstitute e cement fem material having suitable ptoportions ot as time, silica, atomic-e, said ctsy o dried end pulverized, but fieed from sssocieted water of hydration; and reboot ing end clinkering meterie s 13354117 kiln, substentisfly as describes, as

2. In the set Ioftteori I cfinke -the process his consists om ing time rock to pertiotty eslcine the some, grinding the our d produet, mixing it e meterisi silica, and etumioe. suitsbie propo tioos to constitute ceme forming motes} heviog the pro A, tions of time, sflics, and storyline; s heetiug end $Jfi11 K8 9 sets! mstetiei rotsry kiln bested cost, substantiate J m 1 n v h V 5 t et of putveused.

I i 1 =1 1 4 oesctloes.

3. in the srt ct mokzng Ferment} eeo t clinker, the process which consists u I celeining msteriet cprising calcium boosts, grinding the portiely cetcised p1 act, and mixing it with eta-31in suitsbte portions to eonsti ute cement to; 31mg tsble proportiot s of silica, and. slumine, eley be 3 "ted pulverized, but not freed from the sseciet Woter of eye; ed, rehe eii ering solid smote-.37 tisliy es desenoed.

In the art of 111 clinker, the process I paring at pa t eiiy eel A crlum oerbonete, time, one, silica, end slum e, contents being in proportions format -g materiel; fee" e rotsiy kin; generoi o of said kiln e tempersture sufiiei ot to e the ctinkering of the motorist at s, d end; end or sdjusting t rate of feed, Weviness of the teed, the rapidity i Men. of the kite. Wit spect to o dtstribution one use and with the resu t of controlling t e time WILLIAM H. HARDING.

Witnesses:

IRVING M. OBRIEGHT, ANITA BURKE.

the and with respect to-the work which must be done on the material to .bring it to the clinkering tem erature, for the urpose 5 and tempering the extent of the clinkering.

reaction, substantially as described.

Signed at New York city, in the county 

